UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Repeated applications of neurokinin A (NKA) to oocytes injected with 25 ng wild-type hNK2 receptor cRNA caused complete attenuation of second and subsequent NKA-induced responses while analogous experiments using repeated applications of GR64349 and [Nle10]NKA(4-10) resulted in no such desensitization. This behaviour has been previously attributed to the ability of the different ligands to stabilize different active conformations of the receptor that have differing susceptibilities to receptor kinases (Nemeth & Chollet. 1995). 2. However, for Xenopus oocytes injected (into the nucleus) with 10 ng wild-type hNK2 receptor cDNA, a single 100 nM concentration of any of the three ligands resulted in complete desensitization to further concentrations. 3. On the other hand, none of the ligands caused any desensitization in oocytes injected with 0.25 ng wild-type hNK2 receptor cRNA. even at concentrations up to 10 microM. 4. The two N-terminally truncated analogues of neurokinin A have a lower efficacy than NKA and it is likely that it is this property which causes the observed differences in desensitization, rather than the formation of alternative active states of the receptor. 5. The peak calcium-dependent chloride current is not a reliable measure of maximal receptor stimulation and efficacy is better measured in this system by studying agonist-induced desensitization. 6. The specific adenylyl cyclase inhibitor SQ22536 can enhance NKA and GR64349-mediated desensitization which suggests that agonist-induced desensitization involves the inhibition of adenylyl cyclase and the subsequent down-regulation of the cyclic AMP-dependent protein kinase, possibly by cross-talk to a second signalling pathway.
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PMID:The relationship between the agonist-induced activation and desensitization of the human tachykinin NK2 receptor expressed in Xenopus oocytes. 969 Aug 59

A cellular suspension from rat submandibular glands was prepared with collagenase. The intracellular pH (pHi) was estimated with 2',7'-bis-(2-carboxy-ethyl)-5(6)-carboxyfluorescein (BCECF). After exposure to NH4Cl, the pHi transiently increased (diffusion of NH3) and then dropped (influx of NH4+). Isoproterenol increased 2.5-fold the rate of NH4+ influx; bumetanide, an inhibitor of the Na+-K+-2Cl(-)-cotransporter blocked the response to isoproterenol, confirming that the beta-adrenergic agonist stimulated the cotransporter. Forskolin (1 micromol/L) mimicked the response to isoproterenol. VIP (1 nmol/L(-1) micromol/L) also increased the activity of the cotransporter. Cyclic AMP rather than calcium was the mediator of this activation since 1) carbachol which increased the [Ca2+]i fivefold increased the uptake of NH4+ by only 50%; 2) only high concentrations of VIP significantly increased the [Ca2+]i; 3) incubation in the presence of EGTA had no effect on the response to VIP; 4) low concentrations (nmol/L) of the neuropeptide increased the intracellular level of cAMP; and 5) the stimulation of the cotransporter by VIP, forskolin, and isoproterenol was inhibited by H8, an inhibitor of cAMP-dependent protein kinase. It is concluded that the Na+-K+-2Cl(-)-cotransporter of rat submandibular glands is activated by isoproterenol, forskolin, and neuropeptides of the VIP family by a mechanism involving cAMP-dependent processes. The activation of the cotransporter by VIP could partly explain the potentiating effect of VIP on the response to sialagogues like substance P or muscarinic agonists.
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PMID:Activation of the Na+-K+(NH4+)-2Cl(-)- cotransporter from rat submandibular glands in response to VIP. 988 83

Protein kinase C (PKC) designates a family of kinases that regulate many essential functions including cell growth and differentiation. The tight regulation of PKC activity is crucial for maintaining normal cellular proliferation and excessive activity leads to abnormal or uncontrolled cell growth. Recent reports indicate that malignant glioma cell lines express 100 to 1000-fold higher PKC activity when compared to non-neoplastic astrocytes. This high activity correlates well with the proliferation of tumor cells in vitro. We recently reported on the anti-proliferative properties of selective PKC inhibitors on the growth of U-373MG human astrocytoma cell line, and their ability to block mitogen-activated protein (MAP) kinase pathway activated by substance P (SP) neuropeptide receptor signaling via a PKC-dependent mechanism. Therefore, inhibiting PKC activity by selective PKC inhibitors may present a promising approach for improving astroglial brain tumor therapy. For this purpose, we constructed a high throughput model cell system to evaluate the efficacy of PKC inhibitors. This system is based on the measurement of light production in U-373MG cells stably transfected with the luciferase reporter gene whose expression depends on the transcriptional activation of GAL4-Elk1 fusion protein by enzyme components of the MAP kinase pathway and the upstream activation of PKC (PKC activation-->MAP kinases-->GAL4-Elk1 phosphorylation-->luciferase expression-->luciferase activity). In brief, we have demonstrated that the PKC activator 12-O-tetradecanoyl phorbol 13-acetate (TPA)-induced luciferase activity in this cell system is mediated via the MAP kinase pathway and can be blocked in the presence of MEK1 selective inhibitors (PD 098059 or U0126). We also demonstrated that TPA-induced luciferase activity in U-373MG stable clones can be blocked by PKC inhibitors (CGP 41251, Go 6976, and GF 109203X) in a concentration dependent manner. In contrast, epidermal growth factor (EGF)-induced luciferase activity, which is independent of PKC activation (Ras-->Raf-1-->MEK1-->MAP kinases-->GAL4-Elk1 phosphorylation-->luciferase expression-->luciferase activity) can only be blocked using a selective EGF receptor inhibitor (AG 1478). In conclusion, we have constructed a model cell system for the high throughput screening and identification of PKC inhibitors potentially active against astrocytoma cells in culture.
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PMID:A high throughput system for the evaluation of protein kinase C inhibitors based on Elk1 transcriptional activation in human astrocytoma cells. 991 10

(1) The interaction of substance P (SP)-mediated synaptic transmission with general anesthetics remains unknown. (2) Intracellular recordings were obtained from guinea-pig inferior mesenteric ganglion neurons to study monosynaptic responses to exogenous SP and GABA. (3) Propofol (1-100 microM) caused an increase in SP-evoked inward current responses and a concurrent decrease in peak amplitude of the afterspike hyperpolarization of intermittently evoked action potentials. These effects were occluded by the (BK)-K+-channel-selective blocker charybdotoxin (10 nM), and prevented by the protein kinase inhibitor staurosporine (100 nM). (4) Propofol also increased GABA-evoked current (I(GABA)) responses. (5) When elicited during a SP response, I(GABA) was significantly diminished compared to control. In the presence of staurosporine (100 nM), the inhibitory effect of SP upon I(GABA) was abolished, and the propofol-induced augmentation of I(GABA) was significantly increased. (6) Thus, SP-evoked protein kinase activity produced reciprocal changes in anesthetic sensitivity of (BK)-K+- and GABA A-receptor-gated currents of these sympathetic neurons.
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PMID:Protein kinase-mediated reciprocal modulatory changes in anesthetic sensitivity of (BK)-K+- and GABA-A receptor-gated conductances in guinea-pig sympathetic neurons. 1004 88

Bath application of the tachykinin neuropeptide substance P (1 microm) for 10 min causes long-lasting (> 24 h) modulation of the frequency and regularity of NMDA-evoked locomotor bursts in the lamprey. The change in burst frequency has an induction phase (< 2 h), which depends on the potentiation of NMDA responses and an increase in intracellular calcium levels, and a maintenance phase (> 2 h), that is blocked by translational protein synthesis inhibitors. Here, the maintenance phase has been examined further. Unlike translation inhibitors, the transcription inhibitors actinomycin D and 5,6-dichlorobenzimidazole riboside (DRB) failed to reverse the change in burst frequency 2-3 h after substance P application, suggesting that the protein synthesized at this time does not require de novo RNA synthesis. Transcription inhibitors, however, reversed the change in burst frequency 15-24 h after substance P application, as did brefeldin A, which disrupts the Golgi complex and thus interferes with the post-translational transport of proteins. The change in burst regularity was unaffected by transcription or translation inhibitors, but was partially reversed by protein kinase A inhibitors applied 2.5-8 h after substance P. The glycoprotein synthesis inhibitor 2-deoxygalactose did not affect the changes in burst frequency or burst regularity. These results suggest that there are two phases to the maintenance of the change in burst frequency: an intermediate protein-, but not RNA-, synthesis-dependent phase, and a final RNA-synthesis-dependent phase. The change in burst regularity is protein-synthesis-independent, but may depend on activation of protein kinase A for at least 8 h after substance P application.
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PMID:Long-lasting substance-P-mediated modulation of NMDA-induced rhythmic activity in the lamprey locomotor network involves separate RNA- and protein-synthesis-dependent stages. 1021 4

Both substance P (SP) and neurokinin A (NKA) are known as neurotransmitters of the submandibular ganglion (SMG) neurons. SP released from collaterals of the sensory nerves also regulates the excitability of SMG neurons. It has recently been shown that neurokinins (NK) inhibit calcium channels in various neurons. In this study, the effects of NK on voltage-dependent calcium channel current (I(Ca)) in SMG cells were investigated using the whole-cell patch-clamp recording method. NK-1 receptor agonist and SP caused inhibition of I(Ca) in SMG cells in a dose-dependent manner. NK-1 receptor agonist inhibited L-, N- and P/Q-type I(Ca) components. GDP-beta-S included in the pipette solution reduced the NK-1 receptor agonist-induced inhibition of I(Ca). In addition, NK-1 receptor agonist-induced inhibition of I(Ca) was reduced by stimulation of protein kinase C (PKC) but not cyclic AMP-dependent protein kinase (PKA). The results provided evidence for a signal transduction pathway in which calcium channel inhibition by NK receptors required activation of G-protein and PKC-affected step phosphorylation in SMG neurons.
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PMID:Inhibition of calcium channels by neurokinin receptor and signal transduction in hamster submandibular ganglion cells. 1032 1

Five genes on human chromosome 7 (HSA 7) were assigned to bovine chromosome 21 (BTA 21) and 4 (BTA 4) using a bovine-rodent somatic hybrid cell panel. These five genes were alpha-I subunit of adenylate cyclase-inhibiting G-protein (GNAI1), alpha/beta preprotachykinin (TAC1), reelin (RELN), c-AMP dependant protein kinase type II beta regulatory chain (PRKAR2B) and apolipoprotein A1 regulatory protein 1 (TFCOUP2). Four genes mapped to BTA 4 (GNAI1, TAC1, RELN, PRKAR2B) while one gene mapped to BTA 21 (TFCOUP2). This study confirms the synteny conservation between HSA 7 and BTA 4, finely maps the breakpoints of conserved synteny on HSA 7 and defines a new synteny conservation between HSA 7 and BTA 21.
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PMID:Synteny mapping of five human chromosome 7 genes on bovine chromosomes 4 and 21. 1034 25

We examined the tail-flick response to various heat intensities in diabetic and non-diabetic mice. Heat intensities were set to one of five values by adjusting the source voltage of a 50-W projection bulb to 25, 35, 50, 65 and 80 V. These heat intensities produced surface skin heating rates of 0.1, 0.4, 0.9, 3.0 and 7.3 degrees C/s, respectively. Tail-flick latencies at source voltages of 35 and 50 V in diabetic mice were significantly shorter than those in non-diabetic mice. However, there were no significant differences in tail-flick latencies at 25, 65 and 80 V. In non-diabetic mice, tail-flick latencies were not affected by intrathecal (i.t.) pretreatment with capsaicin 24 h before testing. Tail-flick latencies at 35 and 50 V in diabetic mice were increased by pretreatment with capsaicin. Moreover, although tail-flick latencies in non-diabetic mice were not affected by i.t. pretreatment with calphostin C, a selective protein kinase C inhibitor, those at 35 and 50 V in diabetic mice were increased. However, i.t. pretreatment with (8R, 9S, 11S)-(-)-9-hydroxy-9-n-hexyloxy-carbonyl-8-methyl-2, 3, 9, 10-tetrahydro-8, 11-epoxy-1H, 8H, 11H-2, 7b, 11a-triazadibenzo [a, g]cycloocta[cde]-trinden-1-one (KT5720), a selective protein kinase A inhibitor, did not affect tail-flick latencies in either diabetic or non-diabetic mice. In non-diabetic mice, i.t. pretreatment with phorbol 12,13-dibutyrate (PDB), a protein kinase C activator, decreased tail-flick latencies at 35 and 50 V. Tail-flick latencies in diabetic mice were not affected by i.t. pretreatment with PDB 60 min before testing. Furthermore, the attenuation of tail-flick latencies induced by i.t. pretreatment with PDB in non-diabetic mice was reversed by i.t. pretreatment with capsaicin 24 h before testing. These results indicate that diabetic mice exhibit thermal allodynia and hyperalgesia. Furthermore, this thermal allodynia and hyperalgesia in diabetic mice may be due to the enhanced release of substance P followed by activation of protein kinase C in the spinal cord.
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PMID:Possible involvement of spinal protein kinase C in thermal allodynia and hyperalgesia in diabetic mice. 1039 15

A rat kidney epithelial cell line expressing the rat neurokinin-1 receptor (NK-1 R) was used to investigate the relationship between receptor phosphorylation and desensitization. Substance P (SP) maximally stimulated cellular inositol 1,4,5-trisphosphate (IP3) production 14-fold within 3 s, after which cellular IP3 levels rapidly diminished to near basal levels in the continuing presence of SP. SP also caused concentration-dependent phosphorylation of the NK-1R, and this effect was blocked by a receptor antagonist. Stimulation with 100 nM SP for as little as 2 s resulted in 90% desensitization of the receptor to restimulation by SP, and near-maximal receptor phosphorylation was observed at 5 s. Receptor desensitization was not affected by agents that affect protein kinase A. Phorbol 12-myristate 13-acetate (PMA) also caused phosphorylation and desensitization of the receptor but with slower kinetics and to a lesser extent than SP. PMA- but not SP-induced NK-1 R desensitization and phosphorylation were abolished by the protein kinase C inhibitor bisindolylmaleimide 1. The concentration-response curves for SP-stimulated IP3 signaling and desensitization were similar, but the curve for NK-1R phosphorylation was shifted to the right and was steeper, suggesting that the relationship between desensitization and phosphorylation is complex. These results show that both rapid homologous and rapid heterologous NK-1R desensitizations may be mediated by receptor phosphorylation but occur via distinct mechanisms with different kinetics and efficacies.
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PMID:Phosphorylation and desensitization of neurokinin-1 receptor expressed in epithelial cells. 1053 50

The sensory neuropeptide substance P is known to be involved in neurogenic inflammation. We examined the effect of substance P on neutrophil adhesion to human umbilical vein endothelial cells (HUVEC). Stimulation of HUVEC with substance P increased their adhesion to neutrophils in a time- and concentration (10(-10)-10(-7) M)-dependent manner. The adhesion was inhibited by the tachykinin NK1 receptor antagonist (+)-(2S,3S)-3-(2-Methoxybenzylamino)-2-phenylpiperidine (CP-99,994) and also by the protein kinase C inhibitors 1-(5-Isoquinolinesulfonyl)-2-methyl piperazine (H-7) and bisindolylmaleimide (BIM), but not by the protein kinase A inhibitor N-12-(p-Bromocinnamylamino) ethyl]-S-isoquinoline sulfonamide (H-89). These results indicate that substance P induces adhesion of neutrophils to HUVEC by activation of protein kinase C via the NK1 receptor on the HUVEC.
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PMID:Substance P causes adhesion of neutrophils to endothelial cells via protein kinase C. 1059 37

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